// Copyright (C) 2017 Josh Wolfe. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.
/*---
description: multiplication operator ToNumeric with BigInt operands
esid: sec-multiplicative-operators-runtime-semantics-evaluation
features: [BigInt, Symbol.toPrimitive, computed-property-names]
---*/
function Test() {
    function err() {
      throw new Test262Error();
    }

    function MyError() {}

    assert.sameValue({
      [Symbol.toPrimitive]: function() {
        return 2n;
      },

      valueOf: err,
      toString: err
    } * 2n, 4n, 'The result of (({[Symbol.toPrimitive]: function() {return 2n;}, valueOf: err, toString: err}) * 2n) is 4n');

    assert.sameValue(2n * {
      [Symbol.toPrimitive]: function() {
        return 2n;
      },

      valueOf: err,
      toString: err
    }, 4n, 'The result of (2n * {[Symbol.toPrimitive]: function() {return 2n;}, valueOf: err, toString: err}) is 4n');

    assert.sameValue({
      valueOf: function() {
        return 2n;
      },

      toString: err
    } * 2n, 4n, 'The result of (({valueOf: function() {return 2n;}, toString: err}) * 2n) is 4n');

    assert.sameValue(2n * {
      valueOf: function() {
        return 2n;
      },

      toString: err
    }, 4n, 'The result of (2n * {valueOf: function() {return 2n;}, toString: err}) is 4n');

    assert.sameValue({
      toString: function() {
        return 2n;
      }
    } * 2n, 4n, 'The result of (({toString: function() {return 2n;}}) * 2n) is 4n');

    assert.sameValue(2n * {
      toString: function() {
        return 2n;
      }
    }, 4n, 'The result of (2n * {toString: function() {return 2n;}}) is 4n');

    assert.sameValue({
      [Symbol.toPrimitive]: undefined,

      valueOf: function() {
        return 2n;
      }
    } * 2n, 4n, 'The result of (({[Symbol.toPrimitive]: undefined, valueOf: function() {return 2n;}}) * 2n) is 4n');

    assert.sameValue(2n * {
      [Symbol.toPrimitive]: undefined,

      valueOf: function() {
        return 2n;
      }
    }, 4n, 'The result of (2n * {[Symbol.toPrimitive]: undefined, valueOf: function() {return 2n;}}) is 4n');

    assert.sameValue({
      [Symbol.toPrimitive]: null,

      valueOf: function() {
        return 2n;
      }
    } * 2n, 4n, 'The result of (({[Symbol.toPrimitive]: null, valueOf: function() {return 2n;}}) * 2n) is 4n');

    assert.sameValue(2n * {
      [Symbol.toPrimitive]: null,

      valueOf: function() {
        return 2n;
      }
    }, 4n, 'The result of (2n * {[Symbol.toPrimitive]: null, valueOf: function() {return 2n;}}) is 4n');

    assert.sameValue({
      valueOf: null,

      toString: function() {
        return 2n;
      }
    } * 2n, 4n, 'The result of (({valueOf: null, toString: function() {return 2n;}}) * 2n) is 4n');

    assert.sameValue(2n * {
      valueOf: null,

      toString: function() {
        return 2n;
      }
    }, 4n, 'The result of (2n * {valueOf: null, toString: function() {return 2n;}}) is 4n');

    assert.sameValue({
      valueOf: 1,

      toString: function() {
        return 2n;
      }
    } * 2n, 4n, 'The result of (({valueOf: 1, toString: function() {return 2n;}}) * 2n) is 4n');

    assert.sameValue(2n * {
      valueOf: 1,

      toString: function() {
        return 2n;
      }
    }, 4n, 'The result of (2n * {valueOf: 1, toString: function() {return 2n;}}) is 4n');

    assert.sameValue({
      valueOf: {},

      toString: function() {
        return 2n;
      }
    } * 2n, 4n, 'The result of (({valueOf: {}, toString: function() {return 2n;}}) * 2n) is 4n');

    assert.sameValue(2n * {
      valueOf: {},

      toString: function() {
        return 2n;
      }
    }, 4n, 'The result of (2n * {valueOf: {}, toString: function() {return 2n;}}) is 4n');

    assert.sameValue({
      valueOf: function() {
        return {};
      },

      toString: function() {
        return 2n;
      }
    } * 2n, 4n, 'The result of (({valueOf: function() {return {};}, toString: function() {return 2n;}}) * 2n) is 4n');

    assert.sameValue(2n * {
      valueOf: function() {
        return {};
      },

      toString: function() {
        return 2n;
      }
    }, 4n, 'The result of (2n * {valueOf: function() {return {};}, toString: function() {return 2n;}}) is 4n');

    assert.sameValue({
      valueOf: function() {
        return Object(12345);
      },

      toString: function() {
        return 2n;
      }
    } * 2n, 4n, 'The result of (({valueOf: function() {return Object(12345);}, toString: function() {return 2n;}}) * 2n) is 4n');

    assert.sameValue(2n * {
      valueOf: function() {
        return Object(12345);
      },

      toString: function() {
        return 2n;
      }
    }, 4n, 'The result of (2n * {valueOf: function() {return Object(12345);}, toString: function() {return 2n;}}) is 4n');

    assert.throws(TypeError, function() {
      ({
        [Symbol.toPrimitive]: 1
      }) * 0n;
    }, '({[Symbol.toPrimitive]: 1}) * 0n throws TypeError');

    assert.throws(TypeError, function() {
      0n * {
        [Symbol.toPrimitive]: 1
      };
    }, '0n * {[Symbol.toPrimitive]: 1} throws TypeError');

    assert.throws(TypeError, function() {
      ({
        [Symbol.toPrimitive]: {}
      }) * 0n;
    }, '({[Symbol.toPrimitive]: {}}) * 0n throws TypeError');

    assert.throws(TypeError, function() {
      0n * {
        [Symbol.toPrimitive]: {}
      };
    }, '0n * {[Symbol.toPrimitive]: {}} throws TypeError');

    assert.throws(TypeError, function() {
      ({
        [Symbol.toPrimitive]: function() {
          return Object(1);
        }
      }) * 0n;
    }, '({[Symbol.toPrimitive]: function() {return Object(1);}}) * 0n throws TypeError');

    assert.throws(TypeError, function() {
      0n * {
        [Symbol.toPrimitive]: function() {
          return Object(1);
        }
      };
    }, '0n * {[Symbol.toPrimitive]: function() {return Object(1);}} throws TypeError');

    assert.throws(TypeError, function() {
      ({
        [Symbol.toPrimitive]: function() {
          return {};
        }
      }) * 0n;
    }, '({[Symbol.toPrimitive]: function() {return {};}}) * 0n throws TypeError');

    assert.throws(TypeError, function() {
      0n * {
        [Symbol.toPrimitive]: function() {
          return {};
        }
      };
    }, '0n * {[Symbol.toPrimitive]: function() {return {};}} throws TypeError');

    assert.throws(MyError, function() {
      ({
        [Symbol.toPrimitive]: function() {
          throw new MyError();
        }
      }) * 0n;
    }, '({[Symbol.toPrimitive]: function() {throw new MyError();}}) * 0n throws MyError');

    assert.throws(MyError, function() {
      0n * {
        [Symbol.toPrimitive]: function() {
          throw new MyError();
        }
      };
    }, '0n * {[Symbol.toPrimitive]: function() {throw new MyError();}} throws MyError');

    assert.throws(MyError, function() {
      ({
        valueOf: function() {
          throw new MyError();
        }
      }) * 0n;
    }, '({valueOf: function() {throw new MyError();}}) * 0n throws MyError');

    assert.throws(MyError, function() {
      0n * {
        valueOf: function() {
          throw new MyError();
        }
      };
    }, '0n * {valueOf: function() {throw new MyError();}} throws MyError');

    assert.throws(MyError, function() {
      ({
        toString: function() {
          throw new MyError();
        }
      }) * 0n;
    }, '({toString: function() {throw new MyError();}}) * 0n throws MyError');

    assert.throws(MyError, function() {
      0n * {
        toString: function() {
          throw new MyError();
        }
      };
    }, '0n * {toString: function() {throw new MyError();}} throws MyError');

    assert.throws(TypeError, function() {
      ({
        valueOf: null,
        toString: null
      }) * 0n;
    }, '({valueOf: null, toString: null}) * 0n throws TypeError');

    assert.throws(TypeError, function() {
      0n * {
        valueOf: null,
        toString: null
      };
    }, '0n * {valueOf: null, toString: null} throws TypeError');

    assert.throws(TypeError, function() {
      ({
        valueOf: 1,
        toString: 1
      }) * 0n;
    }, '({valueOf: 1, toString: 1}) * 0n throws TypeError');

    assert.throws(TypeError, function() {
      0n * {
        valueOf: 1,
        toString: 1
      };
    }, '0n * {valueOf: 1, toString: 1} throws TypeError');

    assert.throws(TypeError, function() {
      ({
        valueOf: {},
        toString: {}
      }) * 0n;
    }, '({valueOf: {}, toString: {}}) * 0n throws TypeError');

    assert.throws(TypeError, function() {
      0n * {
        valueOf: {},
        toString: {}
      };
    }, '0n * {valueOf: {}, toString: {}} throws TypeError');

    assert.throws(TypeError, function() {
      ({
        valueOf: function() {
          return Object(1);
        },

        toString: function() {
          return Object(1);
        }
      }) * 0n;
    }, '({valueOf: function() {return Object(1);}, toString: function() {return Object(1);}}) * 0n throws TypeError');

    assert.throws(TypeError, function() {
      0n * {
        valueOf: function() {
          return Object(1);
        },

        toString: function() {
          return Object(1);
        }
      };
    }, '0n * {valueOf: function() {return Object(1);}, toString: function() {return Object(1);}} throws TypeError');

    assert.throws(TypeError, function() {
      ({
        valueOf: function() {
          return {};
        },

        toString: function() {
          return {};
        }
      }) * 0n;
    }, '({valueOf: function() {return {};}, toString: function() {return {};}}) * 0n throws TypeError');

    assert.throws(TypeError, function() {
      0n * {
        valueOf: function() {
          return {};
        },

        toString: function() {
          return {};
        }
      };
    }, '0n * {valueOf: function() {return {};}, toString: function() {return {};}} throws TypeError');
}

// preheat
const NUMBER_OF_PREHEAT = 1;
for (let i = 0; i < NUMBER_OF_PREHEAT; i++) {
    Test();
}

ArkTools.jitCompileAsync(Test);
assert.sameValue(ArkTools.waitJitCompileFinish(Test), true, '[JIT] JIT disabled.');

// test
const NUMBER_OF_TEST = 1; // or 2
for (let i = 0; i < NUMBER_OF_PREHEAT; i++) {
    Test();
}
